/// <summary> /// Constructs an instance of the CallSite object given its scope and /// method information. This constructor optionally takes in a preloaded /// trace data information. /// </summary> /// <param name="classScope"></param> /// <param name="methodName"></param> /// <param name="globalFunctionTable"></param> /// <param name="execMode"></param> /// <param name="serializedTraceData">An optional Base64 encoded string /// representing the trace data that the callsite could use as part of /// its re-construction.</param> /// public CallSite(int classScope, string methodName, FunctionTable globalFunctionTable, ExecutionMode execMode, string serializedTraceData = null) { //Set the ID of internal test callsiteID = Guid.NewGuid(); Validity.Assert(methodName != null); Validity.Assert(globalFunctionTable != null); runID = ProtoCore.DSASM.Constants.kInvalidIndex; executionMode = execMode; this.classScope = classScope; this.methodName = methodName; this.globalFunctionTable = globalFunctionTable; if (execMode == ExecutionMode.Parallel) throw new CompilerInternalException( "Parrallel Mode is not yet implemented {46F83CBB-9D37-444F-BA43-5E662784B1B3}"); // Found preloaded trace data, reconstruct the instances from there. if (!string.IsNullOrEmpty(serializedTraceData)) { // TODO(Luke): Decode the (nested) serialized information // to reconstruct all immediate and nested trace data. // // this.traceData.Add(...); // throw new NotImplementedException(); } }
public CallSite(int classScope, string methodName, FunctionTable globalFunctionTable, ExecutionMode execMode) { Debug.Assert(methodName != null); Debug.Assert(globalFunctionTable != null); executionMode = execMode; this.classScope = classScope; this.methodName = methodName; this.globalFunctionTable = globalFunctionTable; if (execMode == ExecutionMode.Parallel) throw new CompilerInternalException( "Parrallel Mode is not yet implemented {46F83CBB-9D37-444F-BA43-5E662784B1B3}"); }
private void ResetAll(Options options) { Heap = new Heap(); //Rmem = new RuntimeMemory(Heap); Configurations = new Dictionary<string, object>(); DllTypesToLoad = new List<System.Type>(); Options = options; Compilers = new Dictionary<Language, Compiler>(); ClassIndex = Constants.kInvalidIndex; FunctionTable = new FunctionTable(); watchFunctionScope = Constants.kInvalidIndex; watchSymbolList = new List<SymbolNode>(); watchBaseOffset = 0; GlobOffset = 0; GlobHeapOffset = 0; BaseOffset = 0; GraphNodeUID = 0; CodeBlockIndex = 0; RuntimeTableIndex = 0; CodeBlockList = new List<CodeBlock>(); CompleteCodeBlockList = new List<CodeBlock>(); CallsiteGuidMap = new Dictionary<Guid, int>(); AssocNode = null; // TODO Jun/Luke type system refactoring // Initialize the globalClass table and type system ClassTable = new ClassTable(); TypeSystem = new TypeSystem(); TypeSystem.SetClassTable(ClassTable); ProcNode = null; ProcTable = new ProcedureTable(Constants.kGlobalScope); // Initialize internal attributes internalAttributes = new InternalAttributes(ClassTable); //Initialize the function pointer table FunctionPointerTable = new FunctionPointerTable(); //Initialize the dynamic string table and dynamic function table DynamicVariableTable = new DynamicVariableTable(); DynamicFunctionTable = new DynamicFunctionTable(); watchStartPC = Constants.kInvalidIndex; deltaCompileStartPC = Constants.kInvalidIndex; BuildStatus = new BuildStatus(this, Options.BuildOptWarningAsError, null, Options.BuildOptErrorAsWarning); SSAExpressionUID = 0; SSASubscript = 0; SSASubscript_GUID = Guid.NewGuid(); SSAExprUID = 0; ExpressionUID = 0; ModifierBlockUID = 0; ModifierStateSubscript = 0; ExprInterpreterExe = null; Options.RunMode = InterpreterMode.Normal; assocCodegen = null; // Default execution log is Console.Out. ExecutionLog = Console.Out; DebuggerProperties = new DebugProperties(); ParsingMode = ParseMode.Normal; IsParsingPreloadedAssembly = false; IsParsingCodeBlockNode = false; ImportHandler = null; deltaCompileStartPC = 0; builtInsLoaded = false; ForLoopBlockIndex = Constants.kInvalidIndex; GraphNodeCallList = new List<GraphNode>(); InlineConditionalBodyGraphNodes = new Stack<List<GraphNode>>(); newEntryPoint = Constants.kInvalidIndex; }
/// <summary> /// Constructs an instance of the CallSite object given its scope and /// method information. This constructor optionally takes in a preloaded /// trace data information. /// </summary> /// <param name="classScope"></param> /// <param name="methodName"></param> /// <param name="globalFunctionTable"></param> /// <param name="execMode"></param> /// <param name="serializedTraceData">An optional Base64 encoded string /// representing the trace data that the callsite could use as part of /// its re-construction.</param> /// public CallSite(int classScope, string methodName, FunctionTable globalFunctionTable, ExecutionMode execMode, string serializedTraceData = null) { //Set the ID of internal test callsiteID = Guid.NewGuid(); Validity.Assert(methodName != null); Validity.Assert(globalFunctionTable != null); this.classScope = classScope; this.methodName = methodName; this.globalFunctionTable = globalFunctionTable; if (execMode == ExecutionMode.Parallel) throw new CompilerInternalException( "Parrallel Mode is not yet implemented {46F83CBB-9D37-444F-BA43-5E662784B1B3}"); // Found preloaded trace data, reconstruct the instances from there. if (!String.IsNullOrEmpty(serializedTraceData)) { LoadSerializedDataIntoTraceCache(serializedTraceData); } }
private void ResetAll(Options options) { ProtoCore.Utils.Validity.AssertExpiry(); Options = options; Executives = new Dictionary<ProtoCore.Language, ProtoCore.Executive>(); FunctionTable = new Lang.FunctionTable(); ClassIndex = ProtoCore.DSASM.Constants.kInvalidIndex; Heap = new DSASM.Heap(); Rmem = new ProtoCore.Runtime.RuntimeMemory(Heap); watchClassScope = ProtoCore.DSASM.Constants.kInvalidIndex; watchFunctionScope = ProtoCore.DSASM.Constants.kInvalidIndex; watchBaseOffset = 0; watchStack = new List<StackValue>(); watchSymbolList = new List<SymbolNode>(); watchFramePointer = ProtoCore.DSASM.Constants.kInvalidIndex; ID = FIRST_CORE_ID; //recurtion recursivePoint = new List<FunctionCounter>(); funcCounterTable = new List<FunctionCounter>(); calledInFunction = false; GlobOffset = 0; GlobHeapOffset = 0; BaseOffset = 0; GraphNodeUID = 0; RunningBlock = 0; CodeBlockIndex = 0; RuntimeTableIndex = 0; CodeBlockList = new List<DSASM.CodeBlock>(); CompleteCodeBlockList = new List<DSASM.CodeBlock>(); DSExecutable = new ProtoCore.DSASM.Executable(); AssocNode = null; // TODO Jun/Luke type system refactoring // Initialize the globalClass table and type system ClassTable = new DSASM.ClassTable(); TypeSystem = new TypeSystem(); TypeSystem.SetClassTable(ClassTable); ProcNode = null; ProcTable = new DSASM.ProcedureTable(ProtoCore.DSASM.Constants.kGlobalScope); //Initialize the function pointer table FunctionPointerTable = new DSASM.FunctionPointerTable(); //Initialize the dynamic string table and dynamic function table DynamicVariableTable = new DSASM.DynamicVariableTable(); DynamicFunctionTable = new DSASM.DynamicFunctionTable(); replicationGuides = new List<List<ProtoCore.ReplicationGuide>>(); ExceptionHandlingManager = new ExceptionHandlingManager(); startPC = ProtoCore.DSASM.Constants.kInvalidIndex; deltaCompileStartPC = ProtoCore.DSASM.Constants.kInvalidIndex; if (options.SuppressBuildOutput) { // don't log any of the build related messages // just accumulate them in relevant containers with // BuildStatus object // BuildStatus = new BuildStatus(this, false, false, false); } else { BuildStatus = new BuildStatus(this, Options.BuildOptWarningAsError, null, Options.BuildOptErrorAsWarning); } RuntimeStatus = new RuntimeStatus(this); SSASubscript = 0; SSASubscript_GUID = System.Guid.NewGuid(); ExpressionUID = 0; ModifierBlockUID = 0; ModifierStateSubscript = 0; ExprInterpreterExe = null; ExecMode = ProtoCore.DSASM.InterpreterMode.kNormal; assocCodegen = null; FunctionCallDepth = 0; // Default execution log is Console.Out. this.ExecutionLog = Console.Out; ExecutionState = (int)ExecutionStateEventArgs.State.kInvalid; //not yet started DebugProps = new DebugProperties(); //stackNodeExecutedSameTimes = new Stack<List<AssociativeGraph.GraphNode>>(); //stackExecutingGraphNodes = new Stack<AssociativeGraph.GraphNode>(); InterpreterProps = new Stack<InterpreterProperties>(); stackActiveExceptionRegistration = new Stack<ExceptionRegistration>(); ExecutiveProvider = new ExecutiveProvider(); Configurations = new Dictionary<string, object>(); ContinuationStruct = new Lang.ContinuationStructure(); ParsingMode = ProtoCore.ParseMode.Normal; IsParsingPreloadedAssembly = false; IsParsingCodeBlockNode = false; ImportHandler = null; deltaCompileStartPC = 0; builtInsLoaded = false; FFIPropertyChangedMonitor = new FFIPropertyChangedMonitor(this); csExecutionState = null; EnableCallsiteExecutionState = false; // TODO: Remove check once fully implemeted if (EnableCallsiteExecutionState) { csExecutionState = CallsiteExecutionState.LoadState(); } else { csExecutionState = new CallsiteExecutionState(); } CallsiteCache = new Dictionary<int, CallSite>(); CachedSSANodes = new List<AssociativeNode>(); CallSiteToNodeMap = new Dictionary<Guid, Guid>(); ASTToCallSiteMap = new Dictionary<int, CallSite>(); ForLoopBlockIndex = ProtoCore.DSASM.Constants.kInvalidIndex; GraphNodeCallList = new List<GraphNode>(); newEntryPoint = ProtoCore.DSASM.Constants.kInvalidIndex; }
private void ResetAll(Options options) { ProtoCore.Utils.Validity.AssertExpiry(); Options = options; Executives = new Dictionary<ProtoCore.Language, ProtoCore.Executive>(); FunctionTable = new Lang.FunctionTable(); ClassIndex = ProtoCore.DSASM.Constants.kInvalidIndex; Heap = new DSASM.Heap(); Rmem = new ProtoCore.Runtime.RuntimeMemory(Heap); watchClassScope = ProtoCore.DSASM.Constants.kInvalidIndex; watchFunctionScope = ProtoCore.DSASM.Constants.kInvalidIndex; watchBaseOffset = 0; watchStack = new List<StackValue>(); watchSymbolList = new List<SymbolNode>(); watchFramePointer = ProtoCore.DSASM.Constants.kInvalidIndex; ID = FIRST_CORE_ID; //recurtion recursivePoint = new List<FunctionCounter>(); funcCounterTable = new List<FunctionCounter>(); calledInFunction = false; GlobOffset = 0; GlobHeapOffset = 0; BaseOffset = 0; GraphNodeUID = 0; RunningBlock = 0; CodeBlockIndex = 0; RuntimeTableIndex = 0; CodeBlockList = new List<DSASM.CodeBlock>(); CompleteCodeBlockList = new List<DSASM.CodeBlock>(); DSExecutable = new ProtoCore.DSASM.Executable(); AssocNode = null; // TODO Jun/Luke type system refactoring // Initialize the globalClass table and type system ClassTable = new DSASM.ClassTable(); TypeSystem = new TypeSystem(); TypeSystem.SetClassTable(ClassTable); ProcNode = null; ProcTable = new DSASM.ProcedureTable(ProtoCore.DSASM.Constants.kGlobalScope); //Initialize the function pointer table FunctionPointerTable = new DSASM.FunctionPointerTable(); //Initialize the dynamic string table and dynamic function table DynamicVariableTable = new DSASM.DynamicVariableTable(); DynamicFunctionTable = new DSASM.DynamicFunctionTable(); replicationGuides = new List<List<int>>(); ExceptionHandlingManager = new ExceptionHandlingManager(); startPC = ProtoCore.DSASM.Constants.kInvalidIndex; deltaCompileStartPC = ProtoCore.DSASM.Constants.kInvalidIndex; RuntimeStatus = new RuntimeStatus(this); SSASubscript = 0; ExpressionUID = 0; ModifierBlockUID = 0; ModifierStateSubscript = 0; ExprInterpreterExe = null; ExecMode = ProtoCore.DSASM.InterpreterMode.kNormal; assocCodegen = null; FunctionCallDepth = 0; // Default execution log is Console.Out. this.ExecutionLog = Console.Out; ExecutionState = (int)ExecutionStateEventArgs.State.kInvalid; //not yet started DebugProps = new DebugProperties(); //stackNodeExecutedSameTimes = new Stack<List<AssociativeGraph.GraphNode>>(); //stackExecutingGraphNodes = new Stack<AssociativeGraph.GraphNode>(); InterpreterProps = new Stack<InterpreterProperties>(); stackActiveExceptionRegistration = new Stack<ExceptionRegistration>(); ExecutiveProvider = new ExecutiveProvider(); Configurations = new Dictionary<string, object>(); ContinuationStruct = new Lang.ContinuationStructure(); ParsingMode = ProtoCore.ParseMode.Normal; IsParsingPreloadedAssembly = false; IsParsingCodeBlockNode = false; ImportHandler = null; deltaCompileStartPC = 0; builtInsLoaded = false; FFIPropertyChangedMonitor = new FFIPropertyChangedMonitor(this); }